/usr/share/perl5/Text/PDF/Dict.pm is in libtext-pdf-perl 0.29a-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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use strict;
use vars qw(@ISA $mincache $tempbase $cr);
# no warnings qw(uninitialized);
use Text::PDF::Objind;
@ISA = qw(Text::PDF::Objind);
$cr = '(?:\015|\012|(?:\015\012))';
use Text::PDF::Filter;
BEGIN
{
my $temp_dir = -d '/tmp' ? '/tmp' : $ENV{TMP} || $ENV{TEMP};
$tempbase = sprintf("%s/%d-%d-0000", $temp_dir, $$, time());
$mincache = 32768;
}
=head1 NAME
Text::PDF::Dict - PDF Dictionaries and Streams. Inherits from L<PDF::Objind>
=head1 INSTANCE VARIABLES
There are various special instance variables which are used to look after,
particularly, streams. Each begins with a space:
=over
=item stream
Holds the stream contents for output
=item streamfile
Holds the stream contents in an external file rather than in memory. This is
not the same as a PDF file stream. The data is stored in its unfiltered form.
=item streamloc
If both ' stream' and ' streamfile' are empty, this indicates where in the
source PDF the stream starts.
=back
=head1 METHODS
=cut
sub new
{
my ($class, @opts) = @_;
my ($self);
$class = ref $class if ref $class;
$self = $class->SUPER::new(@_);
$self->{' realised'} = 1;
return $self;
}
=head2 $d->outobjdeep($fh)
Outputs the contents of the dictionary to a PDF file. This is a recursive call.
It also outputs a stream if the dictionary has a stream element. If this occurs
then this method will calculate the length of the stream and insert it into the
stream's dictionary.
=cut
sub outobjdeep
{
my ($self, $fh, $pdf, %opts) = @_;
my ($key, $val, $f, @filts);
my ($loc, $str, %specs, $len);
if (defined $self->{' stream'} or defined $self->{' streamfile'} or defined $self->{' streamloc'})
{
if ($self->{'Filter'} || !defined $self->{' stream'})
{
$self->{'Length'} = Text::PDF::Number->new(0) unless (defined $self->{'Length'});
$pdf->new_obj($self->{'Length'}) unless ($self->{'Length'}->is_obj($pdf));
# $pdf->out_obj($self->{'Length'});
}
else
{
$self->{'Length'} = Text::PDF::Number->new(length($self->{' stream'}) + ($self->{' stream'} =~ m/$cr$/o ? 0 : 1));
}
}
$fh->print("<<\n");
foreach ('Type', 'Subtype')
{
$specs{$_} = 1;
if (defined $self->{$_})
{
$fh->print("/$_ ");
$self->{$_}->outobj($fh, $pdf, %opts);
$fh->print("\n");
}
}
while (($key, $val) = each %{$self})
{
next if ($key =~ m/^[\s\-]/o || $specs{$key});
next if ($val eq '');
$key = Text::PDF::Name::string_to_name ($key, $pdf);
$fh->print("/$key ");
$val->outobj($fh, $pdf, %opts);
$fh->print("\n");
}
$fh->print('>>');
#now handle the stream (if any)
if (defined $self->{' streamloc'} && !defined $self->{' stream'})
{ # read a stream if infile
$loc = $fh->tell;
$self->read_stream;
$fh->seek($loc, 0);
}
if (!$self->{' nofilt'}
&& (defined $self->{' stream'} || defined $self->{' streamfile'})
&& defined $self->{'Filter'})
{
my ($hasflate) = -1;
my ($temp, $i, $temp1);
for ($i = 0; $i < scalar @{$self->{'Filter'}{' val'}}; $i++)
{
$temp = $self->{'Filter'}{' val'}[$i]->val;
if ($temp eq 'LZWDecode') # hack to get around LZW patent
{
if ($hasflate < -1)
{
$hasflate = $i;
next;
}
$temp = 'FlateDecode';
$self->{'Filter'}{' val'}[$i]{'val'} = $temp; # !!!
} elsif ($temp eq 'FlateDecode')
{ $hasflate = -2; }
$temp1 = "Text::PDF::$temp";
push (@filts, $temp1->new);
}
splice(@{$self->{'Filter'}{' val'}}, $hasflate, 1) if ($hasflate > -1);
}
if (defined $self->{' stream'})
{
$fh->print("\nstream\n");
$loc = $fh->tell;
$str = $self->{' stream'};
unless ($self->{' nofilt'})
{
foreach $f (reverse @filts)
{ $str = $f->outfilt($str, 1); }
}
$fh->print($str);
if (@filts > 0)
{
$len = $fh->tell - $loc + 1;
if ($self->{'Length'}{'val'} != $len)
{
$self->{'Length'}{'val'} = $len;
$pdf->out_obj($self->{'Length'}) if ($self->{'Length'}->is_obj($pdf));
}
}
$fh->print("\n") unless ($str =~ m/$cr$/o);
$fh->print("endstream");
# $self->{'Length'}->outobjdeep($fh);
} elsif (defined $self->{' streamfile'})
{
open(DICTFH, $self->{' streamfile'}) || die "Unable to open $self->{' streamfile'}";
binmode DICTFH;
$fh->print("\nstream\n");
$loc = $fh->tell;
while (read(DICTFH, $str, 4096))
{
unless ($self->{' nofilt'})
{
foreach $f (reverse @filts)
{ $str = $f->outfilt($str, 0); }
}
$fh->print($str);
}
close(DICTFH);
unless ($self->{' nofilt'})
{
$str = '';
foreach $f (reverse @filts)
{ $str = $f->outfilt($str, 1); }
$fh->print($str);
}
$len = $fh->tell - $loc + 1;
if ($self->{'Length'}{'val'} != $len)
{
$self->{'Length'}{'val'} = $len;
$pdf->out_obj($self->{'Length'}) if ($self->{'Length'}->is_obj($pdf));
}
$fh->print("\n") unless ($str =~ m/$cr$/o);
$fh->print("endstream\n");
# $self->{'Length'}->outobjdeep($fh);
}
}
=head2 $d->read_stream($force_memory)
Reads in a stream from a PDF file. If the stream is greater than
C<PDF::Dict::mincache> (defaults to 32768) bytes to be stored, then
the default action is to create a file for it somewhere and to use that
file as a data cache. If $force_memory is set, this caching will not
occur and the data will all be stored in the $self->{' stream'}
variable.
=cut
sub read_stream
{
my ($self, $force_memory) = @_;
my ($fh) = $self->{' streamsrc'};
my (@filts, $f, $last, $i, $dat);
my ($len) = $self->{'Length'}->val;
$self->{' stream'} = '';
if (defined $self->{'Filter'})
{
foreach $f ($self->{'Filter'}->elementsof)
{
my ($temp) = "Text::PDF::" . $f->val;
push(@filts, $temp->new());
}
}
$last = 0;
if (defined $self->{' streamfile'})
{
unlink ($self->{' streamfile'});
$self->{' streamfile'} = undef;
}
seek ($fh, $self->{' streamloc'}, 0);
for ($i = 0; $i < $len; $i += 4096)
{
if ($i + 4096 > $len)
{
$last = 1;
read($fh, $dat, $len - $i);
}
else
{ read($fh, $dat, 4096); }
foreach $f (@filts)
{ $dat = $f->infilt($dat, $last); }
if (!$force_memory && !defined $self->{' streamfile'} && ((length($dat) * 2) > $mincache))
{
open (DICTFH, ">$tempbase") || next;
binmode DICTFH;
$self->{' streamfile'} = $tempbase;
$tempbase =~ s/-(\d+)$/"-" . ($1 + 1)/oe; # prepare for next use
print DICTFH $self->{' stream'};
undef $self->{' stream'};
}
if (defined $self->{' streamfile'})
{ print DICTFH $dat; }
else
{ $self->{' stream'} .= $dat; }
}
close DICTFH if (defined $self->{' streamfile'});
$self->{' nofilt'} = 0;
$self;
}
=head2 $d->val
Returns the dictionary, which is itself.
=cut
sub val
{ $_[0]; }
=head2 $d->copy($inpdf, $res, $unique, $outpdf, %opts)
Copies an object. See Text::PDF::Objind::Copy() for details
=cut
sub copy
{
my ($self, $inpdf, $res, $unique, $outpdf, %opts) = @_;
my ($k, $path);
$res = $self->SUPER::copy($inpdf, $res, $unique, $outpdf, %opts);
$path = delete $opts{'path'};
foreach $k (keys %$self)
{
next if $self->dont_copy($k);
next if defined $res->{$k};
if (UNIVERSAL::can($self->{$k}, "is_obj"))
{
if (grep {"$path/$k" =~ m|$_|} @{$opts{'clip'}})
{ $res->{$k} = $self->{$k}; }
else
{ $res->{$k} = $self->{$k}->realise->copy($inpdf, undef, $unique ? $unique + 1 : 0,
$outpdf, %opts, 'path' => "$path/$k"); }
}
else
{ $res->{$k} = $self->{$k}; }
}
$res;
}
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